Literature DB >> 33659877

A data-driven computational model enables integrative and mechanistic characterization of dynamic macrophage polarization.

Chen Zhao1, Thalyta X Medeiros2, Richard J Sové1, Brian H Annex2, Aleksander S Popel1.   

Abstract

Macrophages are highly plastic immune cells that dynamically integrate microenvironmental signals to shape their own functional phenotypes, a process known as polarization. Here we develop a large-scale mechanistic computational model that for the first time enables a systems-level characterization, from quantitative, temporal, dose-dependent, and single-cell perspectives, of macrophage polarization driven by a complex multi-pathway signaling network. The model was extensively calibrated and validated against literature and focused on in-house experimental data. Using the model, we generated dynamic phenotype maps in response to numerous combinations of polarizing signals; we also probed into an in silico population of model-based macrophages to examine the impact of polarization continuum at the single-cell level. Additionally, we analyzed the model under an in vitro condition of peripheral arterial disease to evaluate strategies that can potentially induce therapeutic macrophage repolarization. Our model is a key step toward the future development of a network-centric, comprehensive "virtual macrophage" simulation platform.
© 2021 The Authors.

Entities:  

Keywords:  cell biology; in silico biology; systems biology

Year:  2021        PMID: 33659877      PMCID: PMC7895754          DOI: 10.1016/j.isci.2021.102112

Source DB:  PubMed          Journal:  iScience        ISSN: 2589-0042


  135 in total

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Authors:  Bárbara Acosta-Iborra; Ainara Elorza; Isabel M Olazabal; Noa B Martín-Cofreces; Silvia Martin-Puig; Marta Miró; María J Calzada; Julián Aragonés; Francisco Sánchez-Madrid; Manuel O Landázuri
Journal:  J Immunol       Date:  2009-03-01       Impact factor: 5.422

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Journal:  Nat Immunol       Date:  2008-07-20       Impact factor: 25.606

6.  Suppressor of cytokine signaling (SOCS)1 is a key determinant of differential macrophage activation and function.

Authors:  Claire S Whyte; Eileen T Bishop; Dominik Rückerl; Silvia Gaspar-Pereira; Robert N Barker; Judith E Allen; Andrew J Rees; Heather M Wilson
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7.  Engineering of macrophages to produce IFN-gamma in response to hypoxia.

Authors:  L Carta; S Pastorino; G Melillo; M C Bosco; S Massazza; L Varesio
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Authors:  Karen C Wheeler; Manoj K Jena; Bhola S Pradhan; Neha Nayak; Subhendu Das; Chaur-Dong Hsu; David S Wheeler; Kang Chen; Nihar R Nayak
Journal:  PLoS One       Date:  2018-01-11       Impact factor: 3.240

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Journal:  Sci Rep       Date:  2016-05-16       Impact factor: 4.379
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  8 in total

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Journal:  Curr Opin Syst Biol       Date:  2021-06-09

2.  Dynamics of tumor-associated macrophages in a quantitative systems pharmacology model of immunotherapy in triple-negative breast cancer.

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Review 4.  Systems biology of angiogenesis signaling: Computational models and omics.

Authors:  Yu Zhang; Hanwen Wang; Rebeca Hannah M Oliveira; Chen Zhao; Aleksander S Popel
Journal:  WIREs Mech Dis       Date:  2021-12-30

5.  Protocol for simulating macrophage signal transduction and phenotype polarization using a large-scale mechanistic computational model.

Authors:  Chen Zhao; Aleksander S Popel
Journal:  STAR Protoc       Date:  2021-08-12

6.  Dynamic Multiscale Regulation of Perfusion Recovery in Experimental Peripheral Arterial Disease: A Mechanistic Computational Model.

Authors:  Chen Zhao; Joshua L Heuslein; Yu Zhang; Brian H Annex; Aleksander S Popel
Journal:  JACC Basic Transl Sci       Date:  2022-01-05

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  8 in total

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